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TRANSCRIPT
Small Modular Reactors Roundtable Participants
Why Are We Here?
Knowledge exchange on Small Modular Reactors between – Utilities (demand side)
– Vendors (supply side)
– Regulators (government side)
– Suppliers
– Advisors, associations & advocacy groups
Hot topic with a lot of associated questions – Hear the latest issues and debate
– Discuss forecasts, timelines, cost estimates
– Discuss opportunities and challenges
Situation Analysis
Today’s economic & financial constraints – Growing demand for baseload, low carbon electricity
– Few U.S. utilities can fund huge $10–12 Billion projects
Siting constraints – Limited sites for full size plants
Need to serve remote areas – Many regions have limited electric grids
– SMRs could offer significant advantages
Need in non-electric markets – Water desalination
– Unconventional oil recovery
– Chemical or metals processing industries?
Situation Analysis
Nuclear renaissance underway globally – What does commercial slowdown in U.S. portend for SMRs?
Expect many more reactors, widely dispersed – Now: 439 plants in 30 countries
Globally, most emerging markets need small reactors – IAEA forecasts
– High range ~ 100 SMRs by 2030; 500-1000 SMRs by 2040?
Potentially enormous export opportunity ! – Chinese also developing
– A global race “Everybody knows this is a global race to bring this very potent clean
technology to the marketplace.”
Small, Modular Reactors
DOE defines as < 300 Mwe; NEI - 350 • Allows favorable insurance treatment
• Linking for larger output (6-pack; 12-pack)
Avoid huge capital investments; quicker ROI
May be higher cost/KWh – Some skepticism over economies of scale
– Economies of mass production expected
• Factory fabrication
• Faster, efficient construction
“Drop-in” at existing coal sites?
Long refueling cycles in some
“Develop these technologies today or import them tomorrow”
– Sec. of Energy, Steven Chu
Situation Analysis
Still in “pre-license application discussion stage” – Interested potential customers
• Electric utilities
• Remote municipalities (Galena, Alaska)
• Industrial energy users
• Military bases
A number of SMR designs and potential niches – Light water reactors, mostly electric applications
• B&W mPower, NuScale, Westinghouse IRIS
– Mini, distributed & fuel cycle applications
• Hyperion, Toshiba 4S, GE Hitachi PRISM
– High temperature gas reactors for process heat and hydrogen
• General Atomics, AREVA, PBMR
“We see SMRs as possibly an opportunity for our next generation of plant development” – Utility EVP
Expected SMR Advantages
Lower capital cost (but higher per KWh cost)
Shorter construction duration
Scalability / incremental capacity additions
Cost benefits resulting from factory/modular construction of components
Longer refueling cycle
Improved security from underground placement
Microgrids and distributed generation
SMR Categories
Company Design Description Niche Benefit
Light Water Reactors
Babcock & Wilcox mPower 125 - 140 MW PWR Below ground containment; expected to license quicker and offer versatility to utilities.
Nuscale Power Inc. Nuscale 45 MWe PWR
Toshiba-Westinghouse IRIS 100-350 MWe PWR
High Temperature Gas Reactors
Pebble Bed MR Ltd. PBMR 80 Mwe, helium gas cooled; steam turbine for power conversion.
Developed in South Africa.
General Atomics EM2 240 MW Gas Turbine Modular Recycles use LWR fuel. Helium gas-cooled.
Liquid Metal Cooled and Fast Reactors
GE Hitachi PRISM 300 MW Liquid sodium cooled Went partially through licensing, part of advanced recycling center concept.
Hyperion Power HPM 25 MW Favorable for military mini grids and oil shale applications. Back end disposal of weapons Pu & HEU.
Toshiba 4S 10 MWe Liquid sodium cooled
TerraPower TWR ~200 - 1,000 MW Traveling wave reactor
Breed-burn reactor with a long refueling cycle.
Small, Modular Reactors
Open questions – One control room or two?
– Emergency planning issues
– Timing of certification
– Economies of scale
– Is security being downplayed?
– Value of testing on DOE site
• NRC role
Most believe siting multiple technologies at a single “test bed” location is no problem
Several designs offer opportunities for disposition of surplus nuclear materials and used LWR fuel
“SMRs have a long road ahead of them. There are about 20 issues
unresolved..”
Small, Modular Reactors
Other Issues – Industry task forces
• ANS & NEI collaboration
– Commercial market timing
– Costs & investments
Management/operational concerns – Designing safety & security in
– Proliferation-resistance and physical protection challenges in remote, widely dispersed locations
– Operations, training, maintenance and planning
– Who operates? Who regulates?
– Nuclear liability
“SMRs have a long road ahead of them. There are about 20 issues
unresolved..”
NRC Licensing & Policy Issues
– Licensing process
– Design requirements
– Source term, dose & siting
– Component & system design
– Operational
– Financial
• Fee assessment (SMRs vs. large reactors)
• Decommissioning funding
– Emergency planning
– Modularity
– Application format & content
– Price Anderson, insurance
– Design certification & COL
– Early site permits
Key Questions
Why are SMRs under serious consideration, when until recently, we have been moving to larger and larger units?
What are the applications and niches for SMR designs?
Will they be a disruptive technology?
Where will SMRs be sited?
What will be the all-in costs of electric power from a typical SMR?
What is the anticipated timeline for licensing and commercialization?
What are the key challenges?
How can we impact the future of SMRs?
Economic Benefit*
100 MW SMR – $500 million to manufacture and install on-site
– Would create 7,000 jobs
– Generate $1.3 billion in sales
– $404 million in payroll
– $35 million in business taxes
100 MW SMR – Annually – 375 jobs
– $107 million in sales
– $27 million in payroll
– $9 million in business taxes
*Source: Solan & Peterson, Dept of Business, U of Idaho Presentation to CSIS 9/29/10
Who is Linton Consulting?
Independent practice providing strategic development and market development services in Energy and Manufacturing – Over 30 years experience with large engineering and construction
firms: Fluor, CH2M HILL, Lockwood Greene
– Over a decade of consulting experience
– Extensive industry contacts & ongoing interviews
Strategic View Industry Studies • 2010 Energy Challenges/ Energy Parks • 2008 Nuclear Renaissance • 2007 Oil, Gas, Chemicals • 2006 Energy • 2005 Mfg./Industrial • 2004 Food & Beverage • 2003 Pharmaceutical • 2002 Power • 2001 Infrastructure Life Cycle, Others
Past Linton Industry Studies
• Oil & Gas
• Electric Power
• Engineering and Construction
• Water/Wastewater
• Environmental
• Asia/Pacific
• Market Reports - Series
2010 Research Conducted – For SRNS
Ameresco
American Nuclear Society
Arizona Clean Fuels
B&W
BetterPlace
BP
Building Construction Trades Dept. (AFL-CIO)
Canup & Associates
Carolinas’ Nuclear Cluster
CH2M Hill
ConocoPhillips
CSIS
Duke Energy
DOE
DOE- EM
Dow Chemical
Eastman Chemical
Economic Development Partnership
EIA
EPRI
Exelon Corporation
Fluor
Gasification Technologies Council
General Atomics
General Electric
GE- Hitachi
George Mason University
Honeywell
Hyperion Power
Marathon
Marston Consulting
MIT
NEI
New Carolina
NNSA
NRC
Peabody Coal
PJM Interconnection
Progress Energy
Rentech
S-4 Energy Solutions
SCANA
SC Regional Development
Senator Graham’s Office
Senator DeMint’s Office
115 Interviews, Discussions, and Meetings*
Shaw Group
Siemens-America
Southern Company
SRNL
SRNS
SRNS- Honeywell
SRNS- Northrup Grumman
SRS-CRO
TerraPower
Technology Ventures
Three Rivers Solid Waste
Authority
University of South Carolina
UOP - Honeywell
USEA
Westinghouse
*Some organizations had multiple interviews
What is Strategic View?
Research model – Used 14 years; 5 in energy
– Forces affecting the future of the energy industry
– Industry responses
– Where it is leading – the future state/outcomes
Process – Interviews with executives
and thought leaders
– Research & analysis
– Executive Roundtable
– Follow up & plan integration
Forces of Change
Industry Responses
Future State / Outcomes
Strategic View – Energy (Example)
Forces of Change
Strategic Responses • Growth & Diversification
• Exploiting Technology
• Investing in Infrastructure
• Conservation & Compliance
• New Project Delivery Strategies
Future State / Outcomes
Energy Efficiency
Strategic Partnerships
Sustainable Performance
Energy Security
Migrating Balance of Power
Technology Innovation
Government Policy & Regulation
Market Dynamics
20
Executive Roundtables
Common purpose
– Convene executives and thought leaders for knowledge exchange
– Expand understanding
– Share perspectives
– Confirm/challenge paradigms
– Advise leadership
– Uncover ideas and opportunities for your organization
– Explore Future – trends and challenges
– Establish practical, realistic path forward